The volume of oxalic acid required for the reaction is 76.8 mL.
What are neutralization reactions?Neutralization reactions are reaction in which acids reacts with bases to form salt and water only.
The neutralization reaction between oxalic acid and NaOH is given in the equation below:
(COOH)₂ (aq) + 2 NaOH (aq) ---> (COONa)₂ (aq) + H₂O (l)
The mole ratio of oxalic acid to NaOH is 1 : 2
moles = volume * molaritymoles of NaOH = Moles of oxalic acid /2
Moles of NaOH = 35.2 mL * 0.546 = 19.2 mmoles
Moles of oxalic acid = 19.2 / 2 = 9.6 mmoles
Volume of oxalic acid required = 9.6 / 0.125
Volume of oxalic acid = 76.8 mL
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2. What is the percent sulfur in iron (III) sulfate?
Step 1
The chemical formula of iron (III) sulfate is the next one:
Fe2(SO4)3
As we can see, there are 3 x 1 atom of S, 3 atoms of S
----------------
Step 2
Information needed:
The atomic masses of:
Fe) 55.8 g/mol
S) 32.0 g/mol
O) 16.0 g/mol
(Please, the periodic table is useful here)
----------------
Step 3
The % of S in Fe2(SO4)3 is calculated as follows:
[tex]\frac{3\text{ x 32.0 g/mol of S}}{(2\text{ x 55.8 g/mol Fe + 3 x 32.0 g/mol S + 3 x 4 x 16.0 g/mol O\rparen}}x100\text{ = 24.0 \%}[/tex]Answer: 24 % of S
Calculate % concentration of of solution prepared by dissolving 8.5 g of glucose (C6H1206) in 35 g of water24 %none of the other answers are correct1.35 %20.%4.1 %
- First, to calculate the % concentration of glucose in the solution, we need to add the 8.5g of glucose to the 35 g of water, to get the weight of the solution:
[tex]\begin{gathered} \text{solution weight=8.5g + 35g} \\ \text{solution weight=43.5g} \end{gathered}[/tex]- Second, we calculate the %w/w (weight/weight) with the solute weight and the solution weight:
[tex]undefined[/tex]- So,
Why is KMnO4 regarded as a secondary standard solution ?
Potassium permanganate is not used as primary standard because is not able to release in MnO2 in the reaction. According to the above discussion, we conclude KMnO4 is used as the secondary standard. It is also hygroscopic in nature.
What is Secondary Standard solution?
A solution created especially for a certain analysis is known as a secondary standard solution. A substance whose active agent contents have been identified by comparison with a primary standard is referred to as a secondary standard. This indicates that it is frequently standardized against a fundamental standard.
Analytical tools and methodologies are calibrated using secondary standard solutions.
The molecular formula of potassium permanganate is KMnO4. Potassium permanganate is one of the oxidising agents in chemistry. Potassium permanganate is not used as primary standard because is not able to release in MnO2 in the reaction. Potassium permanganate is always in the stable form. The reason KMnO4 is also used as a colour indicator in analysis.
According to the above discussion, we conclude KMnO4 is used as the secondary standard. It is also hygroscopic in nature.
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Which substance contains particles with the highest average kinetic energy?
A. 1 kilogram of ice
B. 1 liter of water
C. 1 liter of water vapor
D. 1 kilogram of snow
Answer: C. 1 liter of water vapor
Explanation:
The average kinetic energy increases as follows.
Gas > Liquid > Solid
You can think about it as how fast and freely the molecules are moving in each state, with gases being the greatest.
What is the total moles of particles in 3.0 L of each of the following solutionhalf-normal NaCl , 0.40 % (m/v) , used to provide electrolytesExpress your answer using two significant figures.
The given concentration, 0.40% (m/v), is a mass volume percent concentration. It indicates us that there are 0.40g of NaCl in every 100mL of solution.
We can use this information to detemine how many grams of NaCl are there in 3.0L (3000mL) of solution:
[tex]3000mL\cdot\frac{0.40g}{100mL}=12g[/tex]Now, convert this amount of mass to moles using NaCl molar mass:
[tex]12gNaCl\cdot\frac{1molNaCl}{58.44gNaCl}=0.20molNaCl[/tex]It means that the corect answer is 0.20 moles of NaCl.
Is there any limit to the distance through which diffusion can occur?
Answer
Yes, there is a limit to the distance through which diffusion can occur. This is because diffusion time increases with the square of diffusion distance. Diffusion time is inversely proportional to the diffusion coefficient. hus, if the diffusion distance is small, diffusion happens faster because the particles do not have as far to travel.
The reaction HCl(1) + H₂O(1)→ H30(aq) + Cl(aq) can be abbreviated as HCI → H+ + CI™.
How is this apparently important omission justified?
A)
It's understood that H+ doesn't exist on its own in water, and H30(aq) + Cl(aq)
are both aqueous.
B) It's generally understood that H3O+ is a hypothetical intermediary.
OC) Because water isn't important to the reaction
D) It isn't justified, and the abbreviation is an error.
Reaction - It's understood that H+ doesn't exist on its own in water, and H₃O⁺(aq)⁺Cl⁻(aq) are both aqueous.
What is Reaction?
An act that changes one group of chemical constituents chemically into another is known as a chemical reaction. Chemical reactions typically involve changes that only influence the positions of electrons in the formation and dissolution of chemical bonds between atoms, with no change to the nuclei. Chemical processes are commonly described by a chemical equation (no change to the elements present). The study of chemical processes involving unstable and radioactive elements—where both electronic and nuclear changes may take place—is known as nuclear chemistry.
When Acid HCl react with water it dissociates as H⁺ + Cl⁻ ion. H⁺ is a proton (Hydrogen ion is a proton with the charge on it) but this single unit of the charge is very small as compared to it value of the solution is water and acid. The resulting extraordinary high change desity of the proton strongly atom or molecule in ehich there exist an excess of the
⁻ve charge. In the case of water, the lone pair (e⁻) on oxygen attract the proton and form a co-ordinate bond with it creating a hydronium ion (H₃O⁺)
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Answer:
It's understood that H+ doesn't exist on its own in water, and H30(aq) + Cl(aq) are both aqueous.
Explanation:
took quiz
1. For the reaction CO(g) + NO₂(g) → CO₂(g) + NO(g), a CO₂ concentration of 0.040
moles/liter was measures at 2 seconds. What was the average reaction rate
for this reaction? (Please note that at t = 0, no CO₂ was present.)
Average reaction rate is 0.02 mol/liter/sec
What is an average reaction rate?Change in concentration divided by the change in time gives average reaction rate. The rate of a chemical reaction is measured in mol/l/s.
Average rate is defined as the change in molar concentration of either reactants or products in time is called as average rate. The concentration of reactants decreases during reaction, whereas the concentration of products keeps on increasing until an equilibrium is reached.
Evaluating an average rate shows the amount of change of one variable with respect to another. The other variable is generally time that describes the average change in distance or chemical concentrations.
For the given reaction
CO(g) + NO₂(g) → CO₂(g) + NO(g), a CO₂
concentration of 0.040
moles/liter was measured at 2 seconds.
Average reaction rate = concentration/ time
0.040/ 2
=0.02 mol/l/sec
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How many grams of hydrofluoric acid are formed when 173.63 grams of hydrogen (H2) react with 173.63 grams of fluorine (F2):
H2 + F2 rightwards arrow 2HF
The amount, in grams, of hydrofluoric acid that will be formed when 173.63 grams of hydrogen reacts with 173,63 grams of fluorine would be 182.8 grams.
Stoichiometric problemThe balanced equation of the reaction is written as:
[tex]H_2 + F_2 -- > 2HF[/tex]
According to the equation, the mole ratio of hydrogen and fluorine that react to produce hydrofluoric acid is 1:1.
Recall that: mole of substance = mass of the substance/molar mass
Molar mass of [tex]H_2[/tex] = 1x2 = 2 g/mol
Molar mass of [tex]F_2[/tex] = 19x2 = 38 g/mol
Mole of 173.63 grams [tex]H_2[/tex] = 173.63/2
= 86.82 moles
Mole of 173.63 grams [tex]F_2[/tex] = 173.63/38
= 4.57 moles.
Considering the mole ratio of the two reactants, it appears that fluorine is limited in availability and will, therefore, determine the amount of hydrofluoric acid that will be produced.
Mole ratio of fluorine to hydrofluoric acid = 1:2.
Equivalent mole of hydrofluoric acid = 4.57 x 2 = 9.14 moles.
Mass of 9.14 moles HF = 9.14 x 20
= 182.8 grams
Thus, the amount of hydrofluoric acid formed from the reaction is 182.8 grams.
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- For one of the valence electrons in the Helium atom, do you think the pull on that electron would be greater than,
less than, or equal to the pull on the Hydrogen atom's valence electron? Use Coulomb's law to support your
answer.
The Hydrogen atom's valence electron Fluorine attracts electrons better than any other element.
The more electronegative atom pulls the bond electrons harder so the shared electrons spend more than half of the time on the more electronegative atom, giving it a partial negative charge. For example, in water O is more electronegative than H and thus has a partial negative charge.
The higher the ionization energy the stronger the attraction between the nucleus and the valence electrons requiring more energy to remove the valences. electronic. The further away the electron is from the nucleus the more likely it is to be ejected. In other words, ionization energy is a function of atomic radius. The larger the radius the smaller the amount of energy required to remove an electron from the outermost orbital.
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Write the ions present in solution of Pb(C2H3O2)2 .
From the chemical structure of the compound that is clearly shown in the question, the ions that should be in the solution are; lead II ion and the acetate ion.
What are ions?The term ions has to do with the species that have a positive charge or a negative charge. Thus we could define an ion as as a charged specie. The charge could owe to an excess of electrons in which case the charge is negative or due to a deficiency of electrons which gives us a positive charge.
Looking at the compound that is in solution, we can see that the ions that are present are lead II ion and the acetate ion.
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What does the author describe in this passage?
The author describes different types of t-shirts.
The author describes reasons for moving to New York City.
The author describes two types of energy.
The author describes the dangers of riding in taxis.
The author describes about two types of energy, in this passage which is motion energy and heat energy.
What are motion energy and heat energy?The energy that results from the movement of atoms and molecules within a substance is known as thermal energy, also known as heat energy. These particles generate more heat as they move more quickly. The thermal energy of the earth is referred to as geothermal energy.
Motion energy is energy that is held in the motion of objects. More energy is stored as they move faster. Energy is required to start an object moving, and energy is released when an object slows down. Motion energy includes things like the wind. A car crash is a dramatic example of motion energy; the vehicle comes to a complete stop and abruptly and uncontrollably releases all of its motion energy.
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Please help with this
Answer:
its the 3rd one
Explanation:
(4.4) Which reactant is in excess and what quantity (in moles) are in excess after the acid-base
meutralization reaction of 250 mL of 0.127 M sulfuric acid with 0.200 L of 0.254 M NaOH?
H₂SO4) +2 NaOH → NaSO4) + 2 H₂O
Taking into account the reaction stoichiometry, H₂SO₄ is the reactant in excess and 0.00635 moles are in excess after the acid-base neutralization reaction.
Definition of molarityMolarity is a measure of the concentration of a solute in a solution and indicates the number of moles of solute that are dissolved in a given volume.
The molarity of a solution is calculated by dividing the moles of solute by the volume of the solution:
molarity= number of moles÷ volume
Molarity is expressed in units moles/ L.
Reaction stoichiometryIn first place, the balanced reaction is:
H₂SO₄ + 2 NaOH → Na₂SO₄ + 2 H₂O
By reaction stoichiometry (that is, the relationship between the amount of reagents and products in a chemical reaction), the following amounts of moles of each compound participate in the reaction:
H₂SO₄: 1 moleNaOH: 2 moles Na₂SO₄: 1 moleH₂O: 2 molesLimiting reagentThe limiting reagent is one that is consumed first in its entirety, determining the amount of product in the reaction. When the limiting reagent is finished, the chemical reaction will stop.
Reactant in excess in this caseYou have the acid-base neutralization reaction of:
250 mL (0.250 L, being 1000 mL equal to 1 L) of 0.127 M sulfuric acid.0.200 L of 0.254 M NaOH.Considering the definition of molarity, you can get the amount of each compound that you have in this reaction:
H₂SO₄: 0.250 L× 0.127 M= 0.03175 molesNaOH: 0.200 L× 0.254 M= 0.0508 molesTo determine the limiting reagent, it is possible to use a simple rule of three as follows: if by stoichiometry 1 mole of H₂SO₄ reacts with 2 moles of NaOH, 0.03175 moles of H₂SO₄ reacts with how many moles of NaOH?
moles of NaOH= (0.03175 moles of H₂SO₄× 2 moles of NaOH)÷ 1 mole of H₂SO₄
moles of NaOH= 0.0635 moles
But 0.0635 moles of NaOH are not available, 0.0508 moles are available. Since you have less mass than you need to react with 0.03175 moles of H₂SO₄, NaOH will be the limiting reagent and H₂SO₄ will be the excess reagent.
To determine the amount of excess reagent, it is possible to use a simple rule of three as follows: if by stoichiometry 2 moles of NaOH reacts with 1 mole of H₂SO₄, 0.0508 moles of NaOH reacts with how many moles of H₂SO₄?
moles of H₂SO₄= (1 mole of H₂SO₄× 0.0508 moles of NaOH)÷ 2 moles of NaOH
moles of H₂SO₄= 0.0254 moles
If you have 0.03175 moles of H₂SO₄, the amount of moles in excess is calculated as:
moles in excess= 0.03175 moles - 0.0254 moles
moles in excess= 0.00635 moles
Finally, there are 0.00635 moles of NaOH in excess.
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When molecules in a substance vibrate faster and faster, what happens to the temperature of the substance?
The temperature increases (gets warmer)
ExplanationsWhen the molecules in a substsnce vibrate faster ans faster, it shows that there is an increase the spaces between the molecules thereby leading to an increase in the kinetic enrgy of the molecule
The presence of this extra spaces causes the molecule to move freely thereby increasing the temperature of the substance.
In summary, the higher the vibration, the higher the kinetic energy, and the higher the temperature.
What is ph of .530 M solution of carbonic acid that has acid dissociation of 4.4 x 10^-7
Answer
pH = 3.32
Explanation
Given
Acid dissociation of carbonic acid (Ka) = 4.4x10^-7
Concentration = 0.530 M
Solution
The carbonic acid dissociates into:
[tex]\begin{gathered} H_2CO_3\rightarrow\text{ H}^{+\text{ }}+\text{ HCO3}^- \\ \end{gathered}[/tex][tex]\begin{gathered} Ka\text{ = }\frac{[H^+][A^-]}{[HA]} \\ [H^+]\text{ = \lbrack A}^-] \\ Ka\text{ x \lbrack HA\rbrack= \lbrack H}^+]^2 \\ 4.4\text{ x 10}^{-7}\text{ x 0.530 = \lbrack H}^+]^2 \\ 2.332\text{ x 10}^{-7}\text{ = \lbrack H}^+]^2 \\ 4.816\text{ x 10}^{-4}\text{ = \lbrack H}^+] \\ \\ \end{gathered}[/tex]Now we can calculate the pH
pH = -log[H+]
pH = -log[4.816x10^-4]
pH = 3.32
How does the availability of WATER affect the growth of plants and animals?
Answer:
all living things need water. no water, no life.
im confused help me please
The energy of an orange lamp with a frequency of 5.10 x 10¹⁴ Hz is 3.38 x 10⁻¹⁹ J.
What is frequency ?Frequency is defined as the number occurrences of repeated events per unit of time. SI unit is hertz (Hz).
Briefing:Using the formula,
E = hν
where,
E = energy in joules (J)
h = Planck's constant = 6.63 x 10⁻³⁴ J
ν = frequency in hertz
Given :
Frequency = 5.10 x 10¹⁴ Hz
h = 6.63 x 10⁻³⁴ J
Putting the values,
E = (6.63 x 10⁻³⁴) x (5.10 x 10¹⁴) J
E = 3.38 x 10⁻¹⁹ J
The energy of an orange lamp with a frequency of 5.10 x 10¹⁴ is 3.38 x 10⁻¹⁹J.
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The complete question is -
What is the energy of an orange lamp with a frequency of 5.10 x 10¹⁴ Hz ?
Starting with the following equation,
Fe₂O₃(s) + Al(s) → Fe(l) + Al₂O₃(s)
calculate the moles of Fe₂O₃ that will be required to produce 645 grams of Fe.
Where do i start and how do I calculate? Need help please
The number of moles of Fe₂O₃ that will be required to produce 645 grams of Fe is 5.78 moles
How to determine the moles of Fe₂O₃ neededWe'll begin by obtainig the number of mole of Fe. This can be obtained as follow:
Mass of Fe = 645 gramsMolar mass of Fe = 55.85 g/molMole of Fe =?Mole = mass / molar
Mole of Fe = 645 / 55.85
Mole of Fe = 11.55 moles
Finally, we shall determine the number of moles of Fe₂O₃ needed. Details below
Fe₂O₃(s) + 2Al(s) → 2Fe(l) + Al₂O₃(s)
From the balanced equation above,
2 moles of Fe were produced from 1 mole of Fe₂O₃
Therefore,
11.55 moles of Fe will be produce from = (11.55 × 1) / 2 = 5.78 moles of Fe₂O₃
Thus, the mole of Fe₂O₃ needed is 5.78 moles
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The 14.7 g sample of graphite takes up a volume of 6.6 cm^3. What is the density of graphite?
The density of graphite that has a volume of 6.6cm³ and a mass of 14.7g is 2.23g/cm³.
How to calculate density?Density is the measure of the mass of matter contained by a unit volume.
The density of a substance can be calculated by dividing the mass of the substance by its volume as follows:
Density = mass ÷ volume
According to this question, graphite has a volume of 6.6cm³ and a mass of 14.7g. The density of this substance can be calculated as follows:
Density = 14.7g ÷ 6.6cm³
Density = 2.23g/cm³
Therefore, 2.23g/cm³ is the density of the graphite.
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The lithium-iodine battery is used in pacemakers to generate small electrical impulses that trigger the heart to beat according to the following equation. Identify
the species oxidized.
2 Li(s) + I2 (s) → 2 Lil(aq)
Answer:
The species that oxidizes is lithium, or Li
Explanation:
Since I2 is know to be a halogen, and halogens are oxidizers, iodine is probably not the species being oxidized. So, Li is being oxidized.
Another way to look at the problem is to assign oxidation numbers to all elements on the right and left
The left:
lithium = 0
iodine = 0
Both are 0 since they are in their most stable elemental states
The right:
lithium : +1
Iodine: -1
When something looses an electron and becomes more positive, it is oxidized. Lithium goes from 0 to 1, clearly displaying a rise in oxidization state. So, lithium is being oxidized.
The energy stored in the chemical bonds of a carbohydrate molecule isA. specific heat. B. Kinetic energy. C. potential energy. D. worked.
Answer
C. Potential energy
Explanation
A carbohydrate molecule has chemical bonds, Potential energy is available between chemical bonds.
Predict the missing component
in the nuclear equation.
209/84 Po → 205/82 Pb + X
The missing component in the nuclear equation [tex]\frac{209}{84} Po\\[/tex] → [tex]\frac{205}{82}Pb[/tex] + X is predicted to be [tex]\frac{4}{2} He[/tex].
This nuclear reaction is form of an alpha decay process. In this alpha decay process, the nucleus gets decayed through the release of an alpha particle. The mass number of the nucleus is decreased by 4 units and atomic number of the nucleus is also reduced by 2 units. The particle which is released is nucleus of helium.
The general equation which represents the alpha decay process is -
[tex]\frac{A}{Z} X[/tex] → [tex]\frac{A-4}{Z-2} Y[/tex] + [tex]\frac{4}{2} \alpha[/tex]
The nuclear equation is -
[tex]\frac{209}{84}Po[/tex] → [tex]\frac{205}{82} Pb[/tex] + X
We will balance the reaction and we have to remember in balancing the nuclear equation is that the sums of the superscripts and the subscripts has to be the same on both sides of the equation.
Sum of superscripts : 210 = 206 + y,
so, y =4.
Sum of subscripts : 84 = 82 + x,
so, x = 2.
Therefore, the nuclear equation is -
[tex]\frac{209}{84} Po[/tex] → [tex]\frac{205}{82} Pb[/tex] + [tex]\frac{4}{2} He[/tex]
Hence, the missing component is [tex]\frac{4}{2} He[/tex].
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23.When balancing a chemical equation, one uses all of the following principals except...Select one:a. The number of atoms of each element on the reactant side of the equation must equal the number of atoms of each element on the product side of the equation.b. Subscripts in a formula may be changed so that the equation is balanced.c. The coefficients for the reactants and products may be changed to balance the equation.d. The law of conservation of matter must be obeyed.
Answer:
b. Subscripts in a formula may be changed so that the equation is balanced.
Explanation:
The statement b is not correct, because only the coefficients may be changed to balance the equation. If we change the subscript in a formula, we will change the compound.
A group of similar tissues that perform a specific function is called _______
an organ
a cell
a system
an organism
Answer: an organ
Explanation:
Determine the empirical formula for each of the following compounds:19% tin and 81% iodine
Answer
The empirical formula for this compound is SnI₄Explanation
Given:
% composition: 19% tin and 81% iodine
What to find:
The empirical formula for the compound
Step-by-step solution:
Assume we have 100 grams total of the substance.
Grams Sn: 19 g
Grams I: 81 g
Now, let's convert the number of grams of each element into moles below:
Moles Sn: 19 g/118.71 g/mol = 0.16 mol
Moles I: 81 g/126.90 g/mol = 0.64 mol
Finally, let's divide the number of moles of each element by the smallest number obtained:
Sn = 0.16/0.16 = 1
I = 0.64/0.16 = 4
Therefore the empirical formula for this compound is SnI₄Neon has three stable nautrally occurring isotopes. The isotopic mass and percent abundance of these isotopes are given inthe table.Isotope20 Ne21 Ne22 NeIsotopic mass (u)19.9920.9921.99Abundance (%)90.480.2279.25Calculate the average atomic mass of neon.
To calculate the average mass of Ne (neon), we have to use this formula:
[tex]\text{Average atomic mass = }\frac{\sum ^{}_{}(\text{mass of isotopes)x(abundance \%)}}{100}[/tex][tex]\begin{gathered} \text{Average atomic mass = }\frac{(19.99ux90.48+20.99ux0.27\text{ +}21.99ux9.25)}{100} \\ \text{Average atomic mass = }20.18\text{ u} \end{gathered}[/tex]The average atomic mass of Ne = 20.18 u
Compare the reactivity of the alkali metals family with the reactivity of thehalogen family. (2 points)
The alkali metals grow more reactive as you move down the group, but the halogens become less reactive as you move down, which is one distinction between the reactivity of the groups. The most active halogen is fluorine, whereas the most active naturally occurring alkali metal is cesium.
What are halogens and alkali metals ?
The features of the halogen elements' compounds with other elements and their overall chemical behavior are remarkably similar to one another. However, there is a progressive change in characteristics from fluorine through chlorine, bromine, and iodine to astatine, with fluorine and chlorine having the most marked differences between two succeeding elements. In addition to being the most reactive halogen and element overall, fluorine has a few other characteristics that set it apart from the other halogens.
Lithium (Li), Sodium (Na), Potassium (K), Rubidium (Rb), Cesium (Cs), and Francium are alkali metals, which are elements of group 1. (Fr). Since they only have one electron in their valence shell, they are extremely reactive and strive to adopt the stable octet configuration of the noble gases. The alkali metals exhibit metal properties such as strong thermal and electrical conductivity, lustre, ductility, and malleability. In the outermost shell of each atom of an alkali metal, there is just one electron.
The alkali metals grow more reactive as you move down the group, but the halogens become less reactive as you move down, which is one distinction between the reactivity of the groups. The most active halogen is fluorine, whereas the most active naturally occurring alkali metal is cesium.
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2.Consider the relationship between the temperature and pressure of a gas, when the volume is held constant. Is the relationship directly proportional or indirectly proportional? 3.Which gas law does this demonstrate?
According to the pressure law, the pressure (P) of a fixed mass of a gas is directly proportional to its absolute temperature (T) provided that the volume remains constant. Mathematically;
[tex]\begin{gathered} P\alpha T \\ P=kT \\ k=\frac{P}{T} \end{gathered}[/tex]k is the variation constant
If we have initial and final pressure and initial and final temperature, the formula can be written as:
[tex]k=\frac{P_1}{T_1}=\frac{P_2}{T_2}_{}_{}[/tex]3) The gas law that demonstrates the equation and definition above is known as the PRESSURE LAW.
Water, table salt, and tin metal are all pure substances. Which of these pure substances are compounds
Answer:
water and salt are compounds, water is H2O and table salt is NaCl.
tin is just a metal, an element, not a compound.
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